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APPLYING INTERACTIVE WEB PAGESSelf, Lance 10 1900 (has links)
International Telemetering Conference Proceedings / October 22-25, 2001 / Riviera Hotel and Convention Center, Las Vegas, Nevada / Visitors to web pages are, in most cases, restricted to viewing information the page designer has anticipated they will be interested in viewing. Many times this is adequate, but there are instances where the visitor wants the information they view to be based on selections they choose. The Air Force Research Laboratory (AFRL) Space Vehicles Directorate anticipates selected customers will have a need to view very large data sets that vary from the satellite payload to the satellite state of health1, and will require controlling what they view in an “ad hoc” manner. In response, AFRL is using Java Server Pages developed within the data center to bring interactive and dynamic web page content to these customers.
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SERVING INTERACTIVE WEB PAGES TO TechSat21 CUSTOMERSSelf, Lance 10 1900 (has links)
International Telemetering Conference Proceedings / October 22-25, 2001 / Riviera Hotel and Convention Center, Las Vegas, Nevada / TechSat21 is an innovative satellite program sponsored by the Air Force Research Laboratory Space Vehicles Directorate and the Air Force Office of Scientific Research. Its mission is to control a cluster of satellites that, when combined, create a “virtual satellite” with which to conduct various experiments in sparse aperture sensing and formation flying. Because TechSat21 customers have a need to view very large data sets that vary from the payload to the satellite state of health1 a modern viewing method using Java Server Pages and Active Server Pages is being developed to meet these interactive dynamic demands.
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Rapportverktyg : Till mätsystemet PerceptionGlimmerdahl, Michael January 2021 (has links)
The overall purpose of this project is to create a tool that will be able to generate reports for measurements and calculations performed by the Perception system. At present, this is a manual procedure that is both time-consuming, inefficient, and increases the risk of error. Since Perception is developed in C#, the reporting tool will be developed in ASP.NET Core with C# based on the MVC pattern and all data will be stored in Microsoft's SQL server. Transfer of data between systems will be handled by export files that Perception can generate as well as a self-developed import function in the reporting tool. With a few simple settings and options, the operators will be able to generate reports for the selected project and then copy them to the final report. Initial work with design and usability, based on the existing graphic profile, will result in an application that significantly facilitates the work of producing test reports. To make the design appealing, Bootstrap and self-written CSS will be used and to make the user experience as good as possible, JavaScript and AJAX will be used together with jQuery and thus be able to provide relevant information without the need of page reload. Focus will be placed on validating imported data to ensure that correct information is available and stored in the database. To further help the users, relevant messages will show status both in case of problems but also in case of successful procedures. / Det övergripande syftet, för detta projekt, är att skapa ett verktyg som ska kunna generera rapporter för mätningar och beräkningar utförda i systemet Perception. I dagsläget är detta ett manuellt förfarande som både är tidskrävande och ineffektivt vilket också ger en ökad risk för felkällor. Eftersom Perception är utvecklat i C# kommer rapportverktyget att utvecklas i ASP.NET Core med C# baserat på MVC-mönstret och all data kommer lagras i Microsofts SQL server. Överföringen av data mellan systemen kommer att ske med hjälp av de exportfiler som Perception kan generera samt en egenutvecklad importfunktion i rapportverktyget. Med några enkla inställningar och val ska operatörerna kunna generera rapporter för valt projekt och sedan kunna kopiera dem till slutrapporten. Ett inledande arbete med design och användbarhet, som grundar sig på den befintlig grafisk profilen, ska mynna ut i en applikation som väsentligt underlätta arbetet med att producera testrapporter. För att göra designen tilltalande kommer Bootstrap och egenskriven CSS att användas och för att användarupplevelsen ska bli så bra som möjligt kommer JavaScript samt AJAX att användas tillsammans med jQuery och på så vis kunna ge relevant information utan att sidan behöver uppdateras. Stort fokus kommer att läggas på kontroller av importerad data för att säkerställa att rätt information finns representerat samt sparas till databasen. För att ytterligare underlätta för användarna ska relevanta meddelanden ge status både vid problem men också vid lyckade procedurer.
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Integrating XML and RDF concepts to achieve automation within a tactical knowledge management environmentMcCarty, George E., Jr. 03 1900 (has links)
Approved for public release, distribution is unlimited / Since the advent of Naval Warfare, Tactical Knowledge Management (KM) has been critical to the success of the On Scene Commander. Today's Tactical Knowledge Manager typically operates in a high stressed environment with a multitude of knowledge sources including detailed sensor deployment plans, rules of engagement contingencies, and weapon delivery assignments. However the WarFighter has placed a heavy reliance on delivering this data with traditional messaging processes while focusing on information organization vice knowledge management. This information oriented paradigm results in a continuation of data overload due to the manual intervention of human resources. Focusing on the data archiving aspect of information management overlooks the advantages of computational processing while delaying the empowerment of the processor as an automated decision making tool. Resource Description Framework (RDF) and XML provide the potential of increased machine reasoning within a KM design allowing the WarFighter to migrate from the dependency on manual information systems to a more computational intensive Knowledge Management environment. However the unique environment of a tactical platform requires innovative solutions to automate the existing naval message architecture while improving the knowledge management process. This thesis captures the key aspects for building a prototype Knowledge Management Model and provides an implementation example for evaluation. The model developed for this analysis was instantiated to evaluate the use of RDF and XML technologies in the Knowledge Management domain. The goal for the prototype included: 1. Processing required technical links in RDF/XML for feeding the KM model from multiple information sources. 2. Experiment with the visualization of Knowledge Management processing vice traditional Information Resource Display techniques. The results from working with the prototype KM Model demonstrated the flexibility of processing all information data under an XML context. Furthermore the RDF attribute format provided a convenient structure for automated decision making based on multiple information sources. Additional research utilizing RDF/XML technologies will eventually enable the WarFighter to effectively make decisions under a Knowledge Management Environment. / Civilian, SPAWAR System Center San Diego
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Utilization of forward error correction (FEC) techniques with extensible markup language (XML) schema-based binary compression (XSBC) technologyNorbraten, Terry D. 12 1900 (has links)
Approved for public release, distribution is unlimited / In order to plug-in current open sourced, open standard Java programming technology into the building blocks of the US Navy's ForceNet, first, stove-piped systems need to be made extensible to other pertinent applications and then a new paradigm of adopting extensible and cross-platform open technologies will begin to bridge gaps with old and new weapons systems. The battle-space picture in real time and with as much detail, or as little detail needed is now a current vital requirement. Access to this information via wireless laptop technology is here now. Transmission of data to increase the resolution of that battle-space snapshot will invariably be through noisy links. Noisy links such as found in the shallow water littoral regions of interest will be where Autonomous Underwater and Unmanned Underwater Vehicles (AUVs/UUVs) are gathering intelligence for the sea warrior in need of that intelligence. The battle-space picture built from data transmitted within these noisy and unpredictable acoustic regions demands efficiency and reliability features abstract to the user. To realize this efficiency Extensible Markup Language (XML) Schema-based Binary Compression (XSBC), in combination with Vandermode-based Forward Error Correction (FEC) erasure codes, offer the qualities of efficient streaming of plain text XML documents in a highly compressed form, and a data self-healing capability should there be loss of data during transmission in unpredictable transmission mediums. Both the XSBC and FEC libraries detailed in this thesis are open sourced Java Application Program Interfaces (APIs) that can be readily adapted for extensible, cross-platform applications that will be enhanced by these desired features to add functional capability to ForceNet for the sea warrior to access on demand, at sea and in real-time. These features will be presented in the Autonomous Underwater Vehicle (AUV) Workbench (AUVW) Java-based application that will become a valuable tool for warriors involved with Undersea Warfare (UW). / Lieutenant, United States Navy
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